The Cenozoic Worldpages.geo.wvu.edu/~kammer/g3/19.pdfAlpine-Himalayan Orogeny: extends from Europe...
Transcript of The Cenozoic Worldpages.geo.wvu.edu/~kammer/g3/19.pdfAlpine-Himalayan Orogeny: extends from Europe...
Outline 19:The Cenozoic World
Mountain Building
Cenozoic Epochs• Recent (Holocene)• Pleistocene• Pliocene• Miocene• Oligocene• Eocene• Paleocene
People Eat Only Mario's Pan Pizza, Right?
Cenozoic Mountain Building
Two great orogenies:1. Alpine-Himalayan Orogeny:
extends from Europe to Asia, caused by the collisions of Africa and India with Europe and Asia. This closed off the Mesozoic Tethys Seaway. The Mediterranean and Black seas are remnants of the Tethys.
Major Cenozoic orogenic belts
The Alpine orogen
The Alps, Switzerland
The Himalayas: Mt. Everest in the center
The Himalayas: Mt. Everest in the center
Mt. Everest, view from Tibet
Reconstruction of the Himalayan orogeny
Reconstruction of the Himalayan orogeny
Cenozoic Tectonics or Mountain Building
2. Laramide Orogeny of North America: caused by the collision between the Pacific plate and North America. Formed the Rocky Mountains and many other features of western North America.
The Tetons of Wyoming. Block Uplift Mountains of the Laramide Orogeny.
My own shot of the Tetons
Orientation of Teton Fault Zone
Physiographic features of the western U.S.
Geologic Provinces of the western United States
The Grand Canyon of the Colorado River in Arizona: cuts through the Colorado Plateau
The Grand Canyon of the Colorado River in Arizona: cuts through the Colorado Plateau
Laramide Orogeny
• The Rocky Mountains are not near the edge of the continent. How did they form from plate collisions? Very rapid subduction of the Pacific Plate caused deformation far to the east underneath North America.
Angle of Subduction affects the extent of orogeny inland
Creation of Tensional Features
• About 25 MY ago North America overrode the East Pacific Rise. This created tension underneath North America and stretched the crust. This formed the Great Basin and the San Andreas Fault System.
Formation of the San Andreas
transform fault
Miocene Geology of western US
Cross-section of the Basin and Range province
Extension
Before
After
Nat. Geog., Aug. 2009
Yellowstone National Park
Nat. Geog., Aug. 2009
Yellowstone National Park
1400o C
1900o C
Nat. Geog., Aug. 2009
Yellowstone National Park
Cubic miles of erupted ash and
rock
Area covered by erupted ash and rock
Nat. Geog., Aug. 2009
Nat. Geog., Aug. 2009
Migrating Hotspot as North America moves over a Mantle Plume
Key points about Yellowstone Supervolcano
• Giant eruptions at 2.1 MY, 1.3 MY, and 0.64 MY
• That’s about every 650,000 years. So next eruption is about due, perhaps within 10,000 years.
• Could be the largest eruption in recorded human history.
• Would kill millions in USA. Devastate North American ecosystems.